Power operated zoom and focus control with selective optical paths to viewfinder



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5 Sheets-Sheet l y J X eber; Jren SELECTIVE OPTICAL PATHS TO VIEWFINDER A. COX ETAL POWER OPERATED ZOOM AND FOCUS CONTROL WITH Feb. 2!, 1366 Filed Feb. 4; 1965 Feb. 27, 1968 A. cox ETAL POWER OPERATED ZOOM AND FOCUS CONTROL WITH SELECTIVE OPTICAL PATHS TO VIEWFINDER Filed Feb. z, 1965 5 Sheets-Sheet 2 JhUETZZETSJ dqrihur' Cox fie eber, J'r.

Stephen Lzs c ak Feb; 27, 1968 A. cox E AL POWER OPERATED ZOOM AND FOCUS CONTROL W ITH SELECTIVE OPTICAL PATHS TO VIEWFINDER 4, 1965 5 Sheets-Sheet 5 Filed Feb.

17109111515: firihur' COX J-fen y J Koeber, Jr. Stephen Lz'sycgak M (12MB; W Gangs A.COX ETAL 5 Sheets-Sheet 4 1716167115716; firihur Cox Henry J Kosher; Jr. Stephen Lz'srj'cgak Lw ml Feb. 27, 1968 POWER OPERATED ZOOM AND FOCUS CONTROL WITH SELECTIVE OPTICAL PATHS TO VIEWFINDER Filed Feb. 4, 1965 Feb. 27, 1968 A. cox ETAL POWER OPERATED ZOOM AND FOCUS CONTROL WITH SELECTIVE OPTICAL PATHS TO VIEWFINDER 5 Sheets-Sheet 5 Filed Feb.

Inc/aniline: firihur Cox flen y JXoebenJn Stephen llisyc'yak.

g. (,QMK ww \HZQS POWER OPERATED ZGOM AND FOCUS CONTROL WHTH SELECTIVE OPTIICAI. PATHS T VIIEW lFllNDER Arthur Cox, Park Ridge, Henry .1. Koeher, Jr., Decrfield, and Stephen Liszczak, Wood Dale, Ill., assignors to Bell dz Howell Company, Chicago, 111., a corporation of lllinois Filed Feb. 4, 1965, Ser. No. 430,384 25 Claims. (Cl. 352-140) ABSTRACT OF THE DISCLOSURE A power drive means selectively operable to adjust the focus or focal length of a main objective of a camera having in addition to the focusable variable focal length main objective, a focusing auxiliary viewing objective, and a viewfinder. The optical paths of the objectives are optically connectable by a control on the camera which selectively positions a reflecting surface so that when the field of view to be photographed is to be determined, the main objective optical path is optically connected to the viewfinder; and when the main objective is to be focused, the auxiliary objective optical path is optically connected to the viewfinder. The focusing action of the auxiliary objective simultaneously focuses the main objective. The control simultaneously shifts the drive of the power means to selectively adjust either the focus or zoom optics of the main objective as the reflecting surface is selectively oriented. By circuitry including the cameras governor which may permit the film drive of the camera to operate at dual speeds, the speed of the objective drive motor is similarly coordinated.

Photographic cameras having zoom lenses operated by a power drive mechanism throughout the zooming range are available on the market today. Manual focusing of such zoom lenses, usually by movement of the front portion, has also been available for some time. However, there are no zoom lens cameras available which employ a power drive mechanism for operating either the lens throughout its zooming range or focusing such lens.

The present invention relates to zoom lenses and more particularly to a control device which power drives the zoom lens in either direction throughout its adjustment range, this same power drive being selectively usable for focusing the front element of the zoom lens on a finite object when it is necessary or desired. It further relates to an optical arrangement whereby, selectively in the same viewfinder, either an image from the photographic lens or a highly magnified portion of such image from a high powered magnifier can be observed.

A complete understanding of our invention may be obtained from the following detailed description when read in conjunction with the appended drawings, in which:

FIG. 1 is a rear elevation view of the front housing of a camera embodying the principles of the present invention;

FIG. 2 is a vertical sectional view taken on the line 2-2 of FIG. 1;

FIG. 3 is a horizontal sectional view taken on the line 3-3 of FIG. 1;

FIG. 4 is a vertical sectional view taken on the line 4-4 of FIG. 2;

FIG. 5 is a perspective view showing the power drive mechanism and its relationship to the zoom lens;

FIG. 6 is a horizontal sectional view taken on the line 6-6 of FIG. 1; and

FIG. 7 is an electrical circuit diagram.

Referring to the drawings, a camera, generally desig- 3,379? Patented Feb. 27, 1968 nated at 10, comprises a front housing 11 in which essentially all of the optical components and the mechanical adjustment mechanisms therefor, involved in the present invention, are mounted. The camera also comprises a rear housing 12 in which the film moving mechanism, ,film supply, viewfinder tube, power source (battery) and operating buttons for the lens adjustment mechanisms are contained.

A zoom lens, generally designated at 15, has an annular sleeve 16 which is located in a shouldered bore 17 in housing 11 and fastened to the housing by means of screws 18. Lens 15 is a focal and operates in conjunction with a prime lens, generally designated at 19, to form an image of a scene on a film 21 located at a focal plane 22.

Rotatably mounted on sleeve 16 is a gear 23 which is connected to adjusting cams which adjust the zoom lens throughout its magnification range. Also rotatably mounted on sleeve 16 is another gear 24 which is connected to a focusing ring 26 by means of a driving pin 27 to adjust a front lens cell 28 for focusing of the zoom lens 15. The adjusting cams and the focusing means within the focusable zoom lens 15 are not further described as they'form no part of the present invention.

Below and to one side of the zoom lens 15 there is a bore 29 in which a lens barrel 31 containing an auxiliary high magnification objective, generally designated at 32, is slidably mounted, such objective being used for focusing purposes. This objective has a long focal length along with a very shallow depth of field, thus making it relatively easy to obtain critical focusing of an object. The focal length of the high magnification auxiliary objective 32 is preferably selected to be greater than the maximum focal length to which the focusable, zoom main lens can be adjusted. Thus, because of the auxiliary objectives shallower depth of field, when it is correctly focused, the main objective, which is adjusted therewith, will be focused as well. Mounted externally on barrel 31 of the auxiliary objective is a threaded screw 33, the head of which enters a spiral adjusting cam 34 formed in the outer wall of the focusing ring 26 so that the focusing objective 32 and the front lens cell 28 are adjusted in unison to focus on the same finite object. A keyway 36 is formed in the outer surface of barrel 31 and cooperates with a pin 37 mounted in housing 11 to prevent rotation of barrel 3-1 during its sliding movement.

On the rear of housing 11 in the vicinity of bore 29 there is a cast angular support 38 upon which a mirror 39 is cemented. This mirror reflects an image entering the objective 32 in an upward direction toward a rotatable second mirror 41 mounted for movement about are optical axis of a viewfinder tube generally designated at 42.

Also at the rear of hoiising 11 there is a support plate 43 mounted to the housing by means of screws 44. This plate serves as the mounting plate for the zoom and focus power drive mechanism as well as the rotatable mirror 41. Riveted to the plate 43 is a flanged bushing 46 in which a shouldered shaft 47 rotates, such shaft being part of an angular support member 48 on which mirror 41 is cemented. At the end of shaft 47 there is a cup shaped member 49 having a notch 51, such member being fastened to the end of shaft 47 by means of a screw 52. Surrounding flanged bushing 46 and between the bushing and the cup-shaped member 49 is a combination compression and torsion spring 53. One end of spring 53 is located in notch 51 while the other end is located in a notch 54 in bushing 46. This spring serves to keep the shouldered shaft 47 against the face of bushing member 46 and also supplied spring torque to shaft 47 in a counterclockwise direction as viewed in FIG. 1.

Mounted in an arm 56 extending rearwardly from housing 11 is a vertical support member 57 which sup 3 ports, at its upper end, an angular mirror 58 so positioned as to reflect an image from the photographic lens axis substantially 90 degrees from that axis. Between this angular mirror and the rotatable mirror 41 is a viewfinder objective generally designated as 59 mounted on a bracket 61 which in turn is mounted to plate 43 by means of screws 62.

Angular support member 48 has a flange portion 63 having substantially radial surfaces 64 and 66 adapted to cooperate with a stop pin 67 riveted to plate 43. When the surface 64 is against stop pin 67 the rotatable mirror 41 is optically aligned with the viewfinder ob jective 59 and the angular mirror 58 to bring to the viewfinder eyepiece an image'from. the photographic lens axis. When the surface 66 is in contact with the stop pin 67 the rotatable mirror 41 is optically aligned with the mirror 39 to bring to the viewfinder eyepiece a highly magnified image from the objective 32.

In'the top end of plate 43 there is a bent up ear 68 perpendicular thereto on the end of which a formed lever 69 is mounted for pivotal movement on pivot 71. At its opposite end, lever 69 has a hole 72 through which one end of a cord 73 passes from where it wraps around and under a clamping screw 74. Cord 73 passes around an annularly grooved support member 76 aflixed to plate 43 and thence around a combination annularly grooved support and stud member 77 from where the cord passes around the angular support member 48, through a hole 78 in flange 63. A knot is then tied in this end of cord 73 to prevent it from slipping through hole 78,

A flanged bushing 79 is press fitted into a hole in bent. up ear 68 and serves to mount one end of an over center spring 81 with the other end of the spring mounted in a hole 82 in the formed lever 6.9. A shouldered stud 83 is riveted to formed lever 69 and forms part of a connection between the lever and a sliding control mem ber 84 by entering a U-shaped slot in a hub extension 86 of the control member. The hub extension 86 is also utilized for mounting of a fastening device 87 thereon to slidably mount the control member in a recess 88 of the housing 11. It is to be noted that movement of the sliding control member 84, through over center spring 81, angularly swings formed member 69 about its pivot 71. Movement of control member 84 to the focus posi tion (to the left as viewed in FIG. 1) rotates mirror 41 through cord 73, against torsion spring 53, until surface 66 is in contact with stop pin 67. In this position there is still spring tension on cord 73 from over center spring 81 which keeps the cord taut and. thus. assures con tinued contact of surface 66 with stop pin 67. When control lever 84 is moved to the zoom position as shown in FIG, 1, torsion spring 53 rotates mirror 41 until surface 64 is in contact with stop pin 67 In this position, cord 73 is not taut and to prevent undesirable looseness of the cord, there is a stop 75 formed as part of plate 43 which stops movement: of formed lever 69 to which cord 73 is attached.

An externally threaded bushing member indicated gen erally at 89 is mounted to plate 43 by a nut 91 and serves as the rotatable support member for a driven pinion 92 which is the output gear of a power driven speed re ducing gear transmission indicated generally at 93, Mounted to plate 43 is a reversible D-C motor 94 with a pinion 96 affixed to its shaft. Freely rotatable on a reduced portion 97 of bushing member 89 is a compound gear 98, the larger gear of which meshes with. the pinion 96 while the smaller gear meshes with the larger gear of another compound gear 99 which is freely rotatable on the combination annularly grooved support. and stud member 77. The smaller gear of the compound gear .99 meshes with a gear 101.

Pinion 92 is part of a shaft. 102 which is rotatably and slidably mounted in bushing 89. At one end of the shaft 102, away from pinion 92, there are keyways 1.03 formed in shaft 102. A. member generally designated at 4 104, and having a flange portion 106 and a hub portion 107 with keys 108 formed therein, is slidably and drivingly connected to shaft 102. The outer peripheral portion of one surface of flange. 106 forms a frictional driving connection by contacting a stepped ring-like surface on gear 101. Surrounding the hub 107 is a three-pronged spring member 109 which, at the outer end of the prongs, bears against the surface of gear 101. In the hub area, spring 109 is adjusted to give a proper torque driving relationship at the contact surface between flange 106 and gear 101 and is driven and retained in such position by means of a clamp ring 111.

Adjacent to pinion 92, shaft 102 has an annular groove 112 in which a hairpin formation 113 of a spring wire shifting member 114 is snapped. Formed as part of lever 69 are ears 116, 117, 118, and 119 which cooperate with spring shifter member 114 to shift pinion 92 to mesh with either zoom adjustment gear 23 or focus adjustment gear 24. Spring shifting member 114 is mounted in oversize holes in ears 116 and 117 and upon rotational movement of lever 69, shifts pinion 92 from either one of gears 23 and 24 to the other, If, however, there is an interference of teeth of pinion 92 with the teeth of either of gears 23 or 24, the spring shifter 114 will flex until rotational movement of pinion 92 effects a mesh between it and either of gears 23 or 24. Nor mally, the spring power of the shifter 114 is suflicient to effect complete engagement and disengagement of the pinion 92 with either of gears 23 or 24. However, in the event that there is a sticking condition caused by any foreign material in the gears, movement. of shifter plate 69 will, under such. circumstances, cause either ear 118 or 119 to abut spring shifter 114 for positive movement dependent upon direction of shift movement.

FIG. 7 illustrates the electrical circuitry used in the camera. A motor 121 having a. governor 122 is used to drive the film moving mechanism and is mounted within the rear camera housing 12. Motors 121 and 94 are energized from a power source such as a battery 123 which is also mounted within housing 12. A switch generally indicated at 124 has two switch sections 126 and 127 with each of these sections having three contact positions designated as A, B, and CL Switch 124 is nor mally spring urged toward the A contact position and is operated by the starting button of the camera.

.A treadle type reversing switch 128 is used to control motor 94 and is operated by a pair of push buttons extending through the top wall of housing 12. In the position of switch 124 illustrated in FIG. 7, motor 94 through treadle switch 128 can operate in either the forward or reverse direction with the full power potential of battery 123 applied to the motor. At a relatively fast speed, zoom lens 15 can selectively, through sliding control member 84, be either zoomed or focused without opera-- tion of the film moving mechanism by motor 121. Since motor 121 is not in operation, its governor 122 is closed and forms part of the electrical path from the battery 123 through switch section 127 to motor 94.

As switch 124 is moved downwardly so that switch sections 126 and 127 are now connected to the B contacts, motor 121 is energized with its speed being regulated by governor 122. In this switch position, motor 94 is not only operable but its speed is also being controlled by governor 122.

When the switch 124 is moved further downwardly so that switch sections .126 and 127 are now connected to the C contacts, both motors 121 and 94 can now operate at a relatively fast speed with the full potential of battery 123 connected to both motors without passing through the governor 122.

A camera embodying this invention has great versatility inasmuch as an operator can selectively zoom or focus the lens for scene composition and sharpness of image prior to actually taking pictures, During picture taking,

he has the option of Zooming the lens or keeping it sharp ly focused on a moving ob ect in a follow-focus shot.

Although a specific embodiment of the invention has been shown and described, it is to be understood that many variations in the arrangement can be made, For example, suitable mechanism could be incorporated con necting the camera starting button with sliding control lever 84 to move it to its power zoom position in the event it had been left in its power focus position prior to picture takin Other changes and modifications may be made therein without departing from the inventive concept underlying the same. Therefore, the invention is not to be limited except insofar as is necessitated by the prior art and the scope of the appended claims.

We claim 1. Apparatus for use in a motion picture camera having a housing, a zoom main objective through which light rays from the subject to be photographed pass, and a viewfinder means, the improvement comprising:

a focusing objective in the housing through which similar light rays pass along an optical path substantially parallel to the optical path of the main ob jective;

reflecting means in the optical path of both objectives;

optical means selectively movable to direct said light rays from one of said reflecting means toward the viewfinder means;

stop means in the housing;

manually operable control means exterior of said housing operably connected to cause selection of the position of said selectively movable optical means upon movement of said control means between a first and a second position;

a portion of said movable optical means being adapted to engage said stop means when said control means is in said first position, and another portion of said movable optical means being adapted to engage sail stop means when said control means is in said secend position;

whereby said light rays from said objectives may be selectively viewed through said viewfinder means by manually positioning said control means.

2 Apparatus as in claim ll including means to urge one of said portions on said movable optical means against said stop means when said control means is in said first position wherein when said control means is moved to a second position, said movable means moved against the urging means to position said other portion. against said stop.

3. In a motion picture camera having a housing, viewfinder means in said housing, a zoom main objective and a. focusing objective passing rays along substantially parallel optical paths;

a reflecting means in the optical path of said main objective;

a reflecting means in the optical path of said focusing objective;

said reflecting means causing said rays in said optical paths to cross;

means selectively pivotable at. the juncture of said optical paths to direct said rays from one of the said optical paths to said viewfinder means and to block: said other rays; and

means to control the positioning of said pivotable means wherein the optical path to the viewfinder means is manually selected.

4. In a dual speed power focusing and zooming mechanism for a camera including a camera drive mechanism;

an objective adapted to be zoomed and focused; means on said objective to cause said zooming; means on said objective to cause said focusing;

a first motor selectively connectable to actuate said focusing means and said zooming means;

a second motor selectively connectable to power said camera drive mechanism;

governor means selectively connectable with said sec ond motor to control the speed of said motor when connected; and electric circuitry means connectin said first motor and said governor means wherein the speed of the said motor is controlled by said governor means when. said governor means is operatively connected to control the speed of said second motor and wherein said first motor is operative uncontrolled by said governor when said second motor is not controlled by said governor means,

in. dual speed power focusing and focal length. varying mechanism for a motion picture camera including a. camera drive mechanism and an objective;

at: least one element. of said objective being adapted to be moved. to focus said objective; at least another .ement of said objec ive being adapted to be moved to vary the focal. length of said objec rive; first means operably connected with said first element:

to elite-ct s id Iocusing of said. objective; second. means operably connected with. said second elemerit: i efl'ect focal. length. variation of said objective; a power source in a nom'tally open circuit; a first motor in "L i :tn to sale motor to power means; norma ly open f switch. means operable to connect. said first motor in a closed circuit with said power sour power said mechanically connected first or second. means;

otor to power the camera drive mechanism closed circuit; with. said power source; ans adapted to be selectively connected in mehanically connect said first said first means and said second governor in said circuit to control the rate of operation of said v open. circuit means adapted to be con to said first motor and said power source by= pas lt'l said governor means and said second motor to pelt independent operation of said first motor; second 1 rally open circuit means adapted to be ctmueemd to said first motor, said. second motor and said power at .lrce thrmigh said governor means to overnor co )1 of 'iherate of operation of id second motor:

odtili. power source bypassing said governor means wherein i first motor and said second motor are up led. independently of control of said governor means,

second switch. means operable to selectively close one or: said. :nomually open circuit means:

its In a motion. :ure camera including a drive mech at. is; i one element of said objective being adapted to hidirectionally .rnoved to focus said objective;

at another element of said. objective being adapted onally proved to vary the focal length Leaps operably connected. with said first element hat said focusing;

second means operably connected with said element to elfect said focal length variation;

. sourcein a normally open circuit;

first. motor means in. said second normally open. switch means operable to connect said first motor means a closed circuit with said power source to power said. mechanically connected or second. :tneans, second lrnotor means to power the drive mechanism. of said camera in a. closed circuit. with said power source; governor means to be selectively connected in said circult to control. the rate f operation of said first motor means and said second motor means when in a closed circuit therewith; first normally open circuit means adapted to be connected to said first motor means and said. power source bypassing said governor means and said second. motor second normally" open. circuit means adapted to be connected to said. first motor means, said second motor and said. power source through said governor means wherein the rate of. operation of both said motor is controlled by said. governor means; third. normally open. circuit means adapted to be con .necied to said first .rnotor means. second motor means and. said power source bvpassing said governor means wh re n the rate of operation of both said motor means is independent of said. governor me .ns: second. switch means Operable to selectively close one oi said normally open circuit means to control the relation of said. governor to said first mot r means and second motor 111631185 whereby the rate of operation. of said first motor means is made responsive to said governor means only when said second motor :rneans made responsive to said.

gov rn 1. In a motion picture camera. including a. housing and a camera drive mechanism therein a focusable, variable focal length. main. obiect-ive in housing through. which. light ray from. the subject to be photographed pass along an optic l path; at least one element of said objective being lll dll'flti tionally movable to focus said. obiective; at least a second element of saidv obi 'tive being bidirectionally movable to focal length of. said object. a iocusing ob ective in. the housing through. which light rays similar IO those through the main. obiective pass along an. optical. path substantially parallel to the optical path of said main. objective; at viewfinder means inv the hints g having: optical path displaced re live to said main objective optical path and said. ionising ohjec lv'e: optical path, sleeve means on. said main o ective operable to :rno e tfocusing eiernen cam slat means in said sleeve means; barrel means about said focusing ob n to focus said focusing ohjec. 2 by same relative to said ht g; cam- .torllower means on said. barrel means; said cam means and. sat-o. follower means being operabl y connected wherein. one of said oh ie, focused, the other otf said objectives tool A focusing ring gear means sun'oundin d. main oblexjtive and operably connected with said sleeve means; focal length varying ring gear mean surrounding Sal-id. main. objective and spaced drum said thou-sing ring gear means along the optical of said ohiectivet said focal. length varying ring gear means being open ably connected. to said second element of? said. main. objective to move stone; a reversible motor in said housing; shaft. means operably connected 14) be driven by said motor said haft means being movable between a. first posi tion and a second position pinion means fixed to said shaft means to be driven and moved therewith;

said pinion. means being positioned to selectively engage one of said ring gear means when said shaft means is in said first position. and to engage said other ring gear means when said shaft is in, said sec-' ond. position;

a drive motor operably connected to said camera drive mechanism;

governor means selectively connectable in an electrical circuit. with said drive motor;

electric circuitry means connecting said. reversible motor and said drive motor wherein said motors are controlled. by said governor means when said eircuitry between said drive motor and. said. governor means is closed;

other electric circuitry connecting said reversible motor wherein said. reversible motor is operated uncon= trolled. by said go ernor. means when said first elec= tric circuitry is opened.

tfirst fixed. reflecting means in said main objective optical path;

second. fixed reflecting means in said focusing objective optical path;

third reflecting means selectively positionable in. a first position and a. second. position to reflect the rays from said first reflecting means to saidv viewfinder means in said first position and to reflect the rays rom said second reflecting means to said viewfinder means when in said second position;

stop means in said housing;

means supporting said third reflecting means;

spaced stop engaging por ions on said support means wherein. one of said stop engaging portions engages said stop means when. said reflecting means and sup port; means are in one position. and said. other stop engaging portion engages said stop means when said reflecting means and support means are in another position;

control means on said housing adapted to be manually moved between a. first. position and a. second posi 'tion;

said control means being operably connected. to said shaft means and said support means for said third reflecting means wherein said first position and said v'lccond position of each said meansrelated:

means to bias said supporting means to engage one of stop eans; and.

flexible mean operably connected between con trol .rneans and said support means to permit. said control. means to move support means from said one position as urged by said biasing means to said other position against the biasing of said bias- 313g means;

whereby said. camera is provided with dual speed zooming and focusing mechanism including ans permit selective viewing through a main obiecnve and a. focusing objective,

8. ln camera focus-able ariable focal length.- .main objective first drivable means for adjusting focus of said main.

objective,

set uni. drivable means for varying the focal length of it main. objective,

an energizable motor means,

sh'iftable means operatively connected with. said motor means and being movable to cause said motor means to alternatively drive either of said drivable means,

and. control means for moving said sh-iftable means to selectively engage either said first or said second drivable means whereby when. said shift-able means is in one position, ope-ration of said motor means adjusts the focus of said, obiective, and when. said shiftable .rneans is in. a

second position, operation of said motor means varies the focal length of main objective.

9. A. camera as in claim 8 including a main drive motor operable to move film. in the camera at at least first speed and a second speed, a manually operable control member for actuating said drive motor at a selected one of said speeds to transport film, and means including electrical circuitry to control the selected speed of said main drive motor, and means operatively connected with said motor control means to coordinate the speed of said energizable motor whereby the latter motor is operable at a relatively high speed when said main drive motor is not being actuated to transport film, and at a slower speed when said. main drive motor is being actuated to transport film at a normal running speed.

110. In a camera,

a focusable variable focal length main objective,

a focusing objective mounted adjacent said main objective,

drivable focusing means on said main objective,

drivable focal length varying means on said main objective,

drivable focusing means on said focusing objective,

said focusing means on said main objective and said focusing means on said focusing objective being operably connected,

drive means selectively position-able to engage one of said focusing means or said means for varying the focal length of said main objective so as to adjust said engaged means when operated, and

power means operably connected to said drive means,

whereby when said drive means is operably connected to focus one of said objectives, both objectives are simultaneously focused.

11. A camera as in claim 10 wherein said focusing objective is of a focal length greater than the maximum focal length to which said main objective can be varied.

12. A camera? as in claim 10 including a viewfinder means, a housing, a control means movable between two positions, a first reflecting means located along the axis of said main objective, at second reflecting means located along the optical axis of said focusing objective, and a third reflecting means intersecting the optical axis of said viewfinder means and displaced from both of said objective optical axes and selectively positionable in the path of rays as reflected from said first and second reflecting means wherein said rays are selectively reflected to the viewfinder means in the housing upon positioning of said control means in one of said two positions.

13. In a camera,

a focusable, variable focal length main objective,

an auxiliary focusing objective,

first drivable means for adjusting the focus of said main objective,

second drivable means for adjusting the focus of said auxiliary objective,

cooperating means on said first and second drivable means permitting said first and second drivable means to be driven in synchronism,

third drivable means for varying the focal length of said main objective,

a drive means, and

a control means movable to either of two positions and selectively operable to connect said drive means to either said cooperating means or said third drivable means,

whereby when said control means is in one position,

operation of said drive means adjusts the focus of said objective, and when said control means is in a second position, operation of said drive means varies the focal length of said main ob jective.

M. A camera as in claim 13 wherein said first drivable means includes a first ring operatively connected with at least one element of said objective, and said second i6 drivable means includes a second ring opcratively connected with at least one other element of said objective; and said power drive means includes shiftable means adapted to be alternatively positioned in operative engagement with one of said rings.

15. A camera as in claim M wherein. said rings are ring gears, and said shiftable means is a pinion adapted to mesh with said gears.

16. A camera as in claim 15 wherein said first driv able means includes a sleeve means, and said second drivable means includes a barrel means, said sleeve means and said barrel means including cooperating cam and cam follower means whereby when one of said sleeve means and said barrel means is driven to focus one of said objectives, the other of said objectives is caused to be simultaneously focused.

17. A camera as in claim 13 including:

a viewfinding means,

ahousing,

a first reflecting means located along the optical axis of said main objective,

a second reflecting means located along the optical axis of said auxiliary objective, and

a third reflecting means in an optical path with said viewfinding means and displaced from both of said optical axes and selectively positionable in the path of rays as reflected from said first and second reflecting means wherein said rays are selectively re flected to the viewfinder means in the housing,

18. A camera as in claim 17 wherein said third reflecting means is pivotable through approximately degrees.

19. A camera as in claim 17 including: a connecting means provided to operatively connect said third re flecting means and said control means to selectively posi tion said third reflecting means alternatively to reflect light rays from either said first or second reflecting means into said viewfinder means.

20. A camera as in claim 19 wherein a stop member is positioned within said housing and said third reflecting means includes a pair of spaced stop engaging members to accurately position said reflecting means relative to one of said first and second reflecting means wherein the rays reflected by said first or second reflecting means are directed by said third reflecting means through said viewfinder means.

21. Apparatus as in claim 20 including means to bias one of said stop engaging members on said third reflecting means against said stop means when said control means is in said first position, and wherein said stop portion is moved against said biasing means to position said other member against said stop.

22. A camera as in claim 13 wherein said auxiliary objective is of a focal length greater than the maximum focal length to which said main objective can be varied.

23. A camera as in claim 13 including a housing; and wherein a portion of said control means is positioned ex-= terior of said housing whereby the same can be manually moved between said first and second positions.

24. A camera as in claim 13 including:

a main drive motor,

a manually operated control member for actuating said drive motor to transport film, and

electrical circuitry for permitting said drive means to operate at a relatively high speed for focusing or composing when said control member is not being actuated to transport film, and at a slower speed when said control member is being actuated to transport film at a normal running speed.

25. In a motion picture camera including a housing and a camera drive mechanism therein;

a focusable variable focal length main objective in the housing through which rays from the subject to be photographed pass along an optical path;

at least one element of said objective being bi-directiom 71 l ally movable to enable focusing of said objective;

at least a second element of said objective being bi-directionally movable to enable variation of the focal length of said objective;

an auxiliary focusing objective in the housing through which light rays similar to those through the main objective pass along an optical path substantially par allel to the optical path of said main objective;

a viewfinder means in the housing having an optical path displaced relative to said main objective optical path and said auxiliary objective optical path;

first drivable means on said main objective operable to move said focusing element;

second drivable means on said auxiliary objective operable to move said auxiliary objective relative to said housing to focus same;

cooperating means on said first and second drivable means permitting said first and second drivable means to be driven in synchronism;

third drivable means moving said element enabling variation of the focal length of said main objective;

a reversible motor in said housing;

transmission means operatively connected with said motor and being selectively positionable in engagement with either said cooperating means or said third drivable means;

a drive motor operably connected to said camera drive mechanism;

governor means selectively connectable in an electrical circuit with said drive motor;

electric circuitry means connecting said reversible mo tor in said drive motor wherein both said motors are controlled by said governor means only when said drive motor is controlled by said governor means;

first fixed reflecting means located along the optical path of said main objective;

a second fixed reflecting means located along the optical axis of said auxiliary objective;

a third reflecting means displaced from both of said optical axes and selectively positionable in the path of rays as reflected from said first and second reflecting means wherein said rays are selectively reflected to the viewfinder means; and

a manually actuated control means movable between a first position and a second position;

said control means being operatively connected to said transmission means and said third reflecting means wherein said first position and'said second position of each said means are related wherein the focal length of said main objective is'caused to be varied by said reversible motor and said optical path of said viewfinder means is from said main objective when said control means is in said first position, and wherein said main objective and said auxiliary objective are focused by said reversible motor and said optical path to said viewfinder means is from said viewing objective when. said control means is in said second position.

References Cited UNITED STATES PATENTS 2,732,763 1/1956 Back et a1 350l86 2,984,154 5/1961 Walker a- 350-186 3,194,139 7/1965 Babcock 352- X FOREIGN PATENTS 228,641, 7/1963 Austria JULIA E COINER, Primary Examiner: 

